TY - GEN
T1 - High gain solar photovoltaics
AU - MacDonald, B.
AU - Finot, M.
AU - Heiken, B.
AU - Trowbridge, T.
AU - Ackler, H.
AU - Leonard, L.
AU - Johnson, E.
AU - Chang, B.
AU - Keating, T.
PY - 2009
Y1 - 2009
N2 - Skyline Solar Inc. has developed a novel silicon-based PV system to simultaneously reduce energy cost and improve scalability of solar energy. The system achieves high gain through a combination of high capacity factor and optical concentration. The design approach drives innovation not only into the details of the system hardware, but also into manufacturing and deployment-related costs and bottlenecks. The result of this philosophy is a modular PV system whose manufacturing strategy relies only on currently existing silicon solar cell, module, reflector and aluminum parts supply chains, as well as turnkey PV module production lines and metal fabrication industries that already exist at enormous scale. Furthermore, with a high gain system design, the generating capacity of all components is multiplied, leading to a rapidly scalable system. The product design and commercialization strategy cooperate synergistically to promise dramatically lower LCOE with substantially lower risk relative to materials-intensive innovations. In this paper, we will present the key design aspects of Skyline's system, including aspects of the optical, mechanical and thermal components, revealing the ease of scalability, low cost and high performance. Additionally, we will present performance and reliability results on modules and the system, using ASTM and UL/IEC methodologies.
AB - Skyline Solar Inc. has developed a novel silicon-based PV system to simultaneously reduce energy cost and improve scalability of solar energy. The system achieves high gain through a combination of high capacity factor and optical concentration. The design approach drives innovation not only into the details of the system hardware, but also into manufacturing and deployment-related costs and bottlenecks. The result of this philosophy is a modular PV system whose manufacturing strategy relies only on currently existing silicon solar cell, module, reflector and aluminum parts supply chains, as well as turnkey PV module production lines and metal fabrication industries that already exist at enormous scale. Furthermore, with a high gain system design, the generating capacity of all components is multiplied, leading to a rapidly scalable system. The product design and commercialization strategy cooperate synergistically to promise dramatically lower LCOE with substantially lower risk relative to materials-intensive innovations. In this paper, we will present the key design aspects of Skyline's system, including aspects of the optical, mechanical and thermal components, revealing the ease of scalability, low cost and high performance. Additionally, we will present performance and reliability results on modules and the system, using ASTM and UL/IEC methodologies.
KW - Concentrating photovoltaics
KW - CPV
KW - High gain solar
KW - Silicon
KW - Skyline solar
KW - Solar
UR - https://www.scopus.com/pages/publications/77956836480
U2 - 10.1117/12.826797
DO - 10.1117/12.826797
M3 - Conference contribution
AN - SCOPUS:77956836480
SN - 9780819476975
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - High and Low Concentrator Systems for Solar Electric Applications IV
T2 - High and Low Concentrator Systems for Solar Electric Applications IV
Y2 - 3 August 2009 through 5 August 2009
ER -